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3.
3
Preparation of amine involves nitration of the ring and subsequent
reduction of the nitro group to an amino group –NH2. In aromatic and
aliphatic nitro compounds, nitro group undergoes similar reactions.
However depending on the attachment of functional groups (aryl or
alkyl ), the reactivity may be different.

4.
The various reduction stages of the nitro group are
given below:
4
The reaction involve removal of water

5.
• In general, reduction is easily achieved either by
catalytic hydrogenation (H2 + catalyst), with
reducing metals in acid(Zinc or tin or iron or metal
salt such as SnCl2 in dilute mineral acid can also be
used)
• For example:
5

6.
• As amines can classified to be primary , secondary
and tertiary. Most primary amines can be obtained
by reduction of nitro compound
• The final product depends on the nature of the
reducing agent as well as the pH of the medium.
6
CH3CH2NH2 + 2H2O
1。Amine
CH3CH2NH2 + 2H2O
1。Amine
Catalytic reduction Ni or Pt/3H2
(Given by both aromatic and aliphatic nitro compound)
Reduction in acidic medium(6H)
Zn/HCl . Fe/HCl.Sn/HCl
Zn/NH4Cl(neutral medium)
Reducing agent
CH3CH2NHOH+H2O
N-ethyl hydroxylamine
CH3CH2NO2

11.
If the reduction involve the nitro compound which have
di- and polynitro groups ,hydrogen sulfide in aqueous
or alcoholic ammonia is use for selective reduction of
one nitro group. Treating 2,4-dinitrotoluene with
hydrogen sulfide and ammonia result in reduction of
the 4-nitro group.
11
In the reduction of di- or polynitro aromatic compounds by gaseous H2S over a
solid catalyst,additions of CO gas promotes the formation of amino group from
all nitro groups in the molecule

12.
12
•The reduction of nitro compound is highly
exothermic reaction. The heat is given out when
the nitro group is reduce and amino group being
form.

15.
In nitrile reduction, a nitrile is reduced to
an amine or with a suitable chemical reagent.
Reagents for the conversion to amines
are lithium aluminium hydride( LiAlH4), Raney
nickel( Nickel catalyst),
hydrogen or diborane (B2H6).

16.
This organic reaction is one of several nitrogen-
hydrogen bond forming reactions.
Reactions are sensitive to acidic or alkaline
conditions, which can cause hydrolysis of -CN
group.

17.
The reduction of nitriles using LiAlH4
Lithium tetrahydridoaluminate,
LiAlH4 is more commonly
employed for the reduction of nitriles
on the laboratory scale.
Similarly, LiAlH4 reduces amides to
amines.

18.
There are four hydrogens ("tetrahydido") around
the aluminium in a negative ion.
The "(III)" shows the oxidation state of the aluminium,
and is often left out because
aluminium only ever shows the +3 oxidation
state in its compounds.
The structure of LiAlH4 is:

19.
In the negative ion,
one of the bonds is a co-ordinate covalent bond
using the lone pair on a hydride ion (H-)
to form a bond with an empty orbital on the aluminium.
The nitrile reacts with the lithium tetrahydridoaluminate
in solution in ethoxyethane
followed by treatment of the product
of that reaction with a dilute acid.

21.
The reduction of nitriles using hydrogen
and a metal catalyst
The carbon-nitrogen triple bond in a nitrile can also be reduced by reaction
with hydrogen gas in the presence of a variety of metal catalysts.
Commonly quoted catalysts are palladium, platinum or nickel.
The reaction will take place at a raised temperature and pressure.

22.
It is impossible to give exact details because it will vary from
catalyst to catalyst.
For example, ethanenitrile can be reduced to ethylamine by
reaction
with hydrogen in the presence of a palladium catalyst.
Overall, the carbon-nitrogen triple bond is reduced to give a
primary amine.
Primary amines contain the -NH2 group.

24.
Amide Reduction
 Amides are a group of organic compounds derived
from ammonia (NH3).
 Amide reduction in chemistry is the organic
reduction of amides.
 Amides, RCONR'2, can be reduced to the amine,
RCH2NR'2 by conversion of the C=O to -CH2-

26.
 The main reaction product is an amine.
 The nature of the amine obtained depends on the
substituent present on the original amide.

27.
Definition
The Hofmann rearrangement is the organic reaction
of a primary amide to a primary amine with one
fewer carbon atom.

28.
Mechanism
The reaction of bromine with sodium
hydroxide forms sodium hypobromite, which
transforms the primary amide into an
intermediate isocyanate. The intermediate
isocyanate is hydrolyzed to a primary amine giving
off carbon dioxide